An important issue in the field of motion control of wheeled mobile robots is that the design of most controllers is based only on the robot’s kinematics. However, when high-speed movements and/or heavy load transportation are required, it becomes essential to consider the robot dynamics as well. The control signals generated by most dynamic controllers reported in the literature are torques or voltages for the robot motors, while commercial robots usually accept velocity commands. In this context, we present a velocity-based dynamic model for differential drive mobile robots that also includes the dynamics of the robot actuators. Such model has linear and angular velocities as inputs and has been included in Peter Corke’s Robotics Toolbox ...
University of Minnesota M.S.E.E. thesis. December 2017. Major: Electrical Engineering. Advisor: Jian...
Mobile robots with differential chassis are very often used because of simple construction and a sma...
This manuscript presents a universal control law for a class of complex dynamic systems, such as mob...
An important issue in the field of motion control of wheeled mobile robots is that the design of mos...
The great majority of path following control laws for either kinematical or dynamical mobile robot m...
A unicycle model of control a mobile robot is a simplified modeling approach modified from the diffe...
This article is aimed at obtaining a descriptionof the behaviour of an ideal differentially steered ...
Abstract: Mobile robots have received a great deal of research in recent years. A significant amount...
AbstractDifferential drive mobile robots are widely used due to their simplicity, easiness of contro...
This thesis focusses on the dynamic modelling and on the systematic evaluation of model-based contro...
The application of differential drive robots has grown from scientific research to broader industria...
This project is aimed to inspire students to learn controller design by employing it for a wheeled m...
Recent works on the control of wheeled mobile robots have shifted from the use of the kinematic mode...
Mobile robots with differential chassis are very often used because of simple construction and a sma...
Historically, trapezoidal velocity profiles have been widely used to control engines. Nevertheless, ...
University of Minnesota M.S.E.E. thesis. December 2017. Major: Electrical Engineering. Advisor: Jian...
Mobile robots with differential chassis are very often used because of simple construction and a sma...
This manuscript presents a universal control law for a class of complex dynamic systems, such as mob...
An important issue in the field of motion control of wheeled mobile robots is that the design of mos...
The great majority of path following control laws for either kinematical or dynamical mobile robot m...
A unicycle model of control a mobile robot is a simplified modeling approach modified from the diffe...
This article is aimed at obtaining a descriptionof the behaviour of an ideal differentially steered ...
Abstract: Mobile robots have received a great deal of research in recent years. A significant amount...
AbstractDifferential drive mobile robots are widely used due to their simplicity, easiness of contro...
This thesis focusses on the dynamic modelling and on the systematic evaluation of model-based contro...
The application of differential drive robots has grown from scientific research to broader industria...
This project is aimed to inspire students to learn controller design by employing it for a wheeled m...
Recent works on the control of wheeled mobile robots have shifted from the use of the kinematic mode...
Mobile robots with differential chassis are very often used because of simple construction and a sma...
Historically, trapezoidal velocity profiles have been widely used to control engines. Nevertheless, ...
University of Minnesota M.S.E.E. thesis. December 2017. Major: Electrical Engineering. Advisor: Jian...
Mobile robots with differential chassis are very often used because of simple construction and a sma...
This manuscript presents a universal control law for a class of complex dynamic systems, such as mob...